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New Results Obtained with a Regular XRF Spectrometer and a Portable Field Spectrometer, Equipped with a Cold Cathode Electron Tube

Published online by Cambridge University Press:  06 March 2019

J.J. Sahores
Affiliation:
Société Nationale des Pétroles d'Aquitaine, 64001 Pau, France
E.P. Larribau
Affiliation:
Société Nationale des Pétroles d'Aquitaine, 64001 Pau, France
J. Mihura
Affiliation:
Société Nationale des Pétroles d'Aquitaine, 64001 Pau, France
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Extract

The results presented here have been obtained with a regular Philips universal spectrometer, equipped with an irradiation tube radically different from those normally used. Since we have previously described this tube in past papers (1) (2) (3), we will therefore only briefly recall its principle.

When starting this research program, our aim was to make possible the analysis of very light elements from sodium to boron, for a regular fluorescence spectrometer, without any modification of the spectrometer itself. As a matter of fact, the tube that we developed enabled us to reach this goal, but, moreover it opened some other possibilities :

  • 1) heavier elements could also be analysed

  • 2) thanks to the very low electric power required by this tube, a portable spectrometer could be built for field use

  • 3) since it allowed a very convenient study of low energy X-rays, we could easily measure energy levels of external electrons and thus study the influence of chemical or crystallographical structure on the X-ray spectrum.

Type
Research Article
Copyright
Copyright © International Centre for Diffraction Data 1972

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References

1. Larribau, E.P., Grubis, B. and Sahores, J.J., “Tube à cathode froide émetteur d’ àlectrons et de rayons X, utilisable pour la spectrométrie”. French patent 69-31. 60 (1969).Google Scholar
2. Larribau, E.P., “Dosage des éléments légers par Fluorescence X”. Thesis, University of Toulouse (1970).Google Scholar
3. Sahores, J.J. and Mihura, J., “Résultats obtenus avec un tube d'excitation mixte (photons et électrons)”, 2ème Colloque International sur les Rayonnement5 X, Toulouse (1971).Google Scholar
4. Wyckoff, R.W.G. and Davidson, F.D., “A Commercial Spectrometer Modified for X-Ray Spectroscopy of the Light Elements”. Nature 205, 969971 (1965).Google Scholar
5. Toft, R.W., “A Windowless X-Ray Tube for use with the Philips Vacuum X-Ray Spectrometer”, 5th Conference on X-Ray analytical methods, Swansea (1966). Published by Philips, Eindhoven.Google Scholar
6. Sahores, J.J., “Dosage des éléments majeurs des roches par spectrofluorescence X”, Bulletin Centre Recherches Pau-SNPA 2, 137162 (1968).Google Scholar
7. Vogel, C., Bonnelle, C and Wuilleumier, F., “Diffraction des rayons X par des couches multiples de stéarates de cations lourds”. Comptes Rendus Acad. Sci. Paris 269, 12551258 (1969).Google Scholar
8. Vogel, C and Dupeyrat, M., “Réalisation de couches multiples de stéarates de cations lourds utilisables en spectroscopie X”. Comptes Rendus Acad. Sci. Paris 270, 105108 (1970).Google Scholar
9. Mibura, J., “Analyse par spectrométrie de rayons X : contribution à l'étude de l'excitation électronique par tubes à gaz”, Thèse n° 351, Université Paul Sabatier, Toulouse (1972).Google Scholar
10. Fischer, D.W. and Baun, W.L., “The Effect of Chemical Combination on Some Soft X-Ray K and L Emission Spectra”, 9, 329343, Plenum Press (1966).Google Scholar
11. Holliday, J.E., “Soft X-Ray Valance State Effects in Conductors”. Advances in X-Ray Analysis 13, 136157, Plenum Press (1970).Google Scholar